Method for complementing dynamic resource-level path computation

The invention claimed is: 1. A method for complementing dynamic resource-level path computation with a resource grouping constraint in an optical wavelength division multiplexing (WDM) network, comprising the steps of: deriving, using a resource group function (RGF) deriving unit comprising a processor and memory, a resource group function (RGF) from inter-relationships amongst network resources within at least one network element forming at least one network resource group (NRG); and performing, using a path computation unit, the resource-level path computation accounting for the derived resource group function (RGF); said optical WDM network comprising network resources having atomically allocatable transport units; said optical WDM network comprising optical channels, transponders and regenerators as network resources; wherein the network resources of the network resource group (NRG) share a common set of at least one of attributes, functionalities and inter-relationships, wherein inter-relationships are induced via either one of device limitations and non-orthogonalities of the network resources, wherein said device limitations and said non-orthogonalities of the network resources are induced directly through an application, wherein said optical WDM network comprises at least one reconfigurable optical add drop multiplexer (ROADM) as the at least one network element, said ROADM comprising a multiport-tunable filter to which tunable transponders are connected, and wherein the multi-port tunable filter comprises an exclusion relationship between the wavelength channels. 2. The method according to claim 1 , wherein the network resources of said network resource group (NRG) are controlled depending on predetermined traffic engineering goals. 3. The method according to claim 1 , wherein the network resource group (NRG) is automatically generated by means of a resource auto-discovery mechanism or manually configured by an operator of said network. 4. The method according to claim 1 , wherein the network resource group (NRG) comprises network resources which are accessible on the at least one network element of said optical WDM network from the same or separate links. 5. The method according to claim 1 , wherein said resource-level path computation comprises a constraint mechanism for computing a path through said optical WDM network. 6. The method of claim 1 , wherein said device limitations and said non-orthogonalities of the network resources are further induced through specific operational policies for the network. 7. A network with network resources, comprising: resource group function deriving means which are adapted to derive a resource group function (RGF) amongst network resources of at least one network resource group (NRG) of said network; and a path computation unit which is adapted to perform a resource-level path computation depending on the derived resource group function (RGF), wherein said network is an optical wavelength division multiplexing (WDM) network; said optical WDM network comprising network resources having atomically allocatable transport units; said optical WDM network comprising optical channels, transponders and regenerators as network resources; wherein the network resources of the network resource group (NRG) share a common set of at least one of attributes, functionalities and inter-relationships, wherein inter-relationships are induced via either one of device limitations and non-orthogonalities of the network resources, wherein said device limitations and said non-orthogonalities of the network resources are induced directly through an application, wherein said optical WDM network comprises at least one reconfigurable optical add drop multiplexer (ROADM) as a network element, said ROADM comprising a multiport-tunable filter to which tunable transponders are connected, and wherein the multi-port tunable filter comprises an exclusion relationship between the wavelength channels. 8. The network according to claim 7 , further comprising a resource control unit adapted to control network resources of said at least one network resource group (NRG) depending on the computation result provided by said path computation unit. 9. The network according to claim 7 , wherein the network resource group (NRG) is automatically generated by means of a resource auto-discovery mechanism of said network or manually configured by an operator of said network. 10. The network according to claim 8 , wherein said multiport-tunable filter is controlled by said resource control unit depending on a computation result on the basis of the derived resource group function (RGF) of the network resource group (NRG) comprising said multiport-tunable filter. 11. The network according to claim 10 , wherein said multiport-tunable filter of said reconfigurable optical add drop multiplexer (ROADM) is connected to at least one wavelength selective switch connecting said reconfigurable optical add drop multiplexer (ROADM) with at least one optical network segment of said network. 12. The network according to claim 7 , wherein said resource group function (RGF) is stored in a data storage to which said path computation unit has access. 13. The network of claim 7 , wherein said device limitations and said non-orthogonalities of the network resources are further induced through specific operational policies for the network. 14. A computer program product, comprising: a non-transitory computer readable medium having control logic stored therein for causing a computer to complement a dynamic resource-level path computation with a resource grouping constraint in a network, wherein the control logic when executed by a processor of the computer controls the computer to perform steps comprising: deriving a resource group function (RGF) from inter-relationships amongst network resources within at least one network element forming at least one network resource group (NRG), and performing the resource-level path computation accounting for the derived resource group function (RGF), wherein said network is an optical wavelength division multiplexing (WDM) network; said optical WDM network comprising network resources having atomically allocatable transport units, and said optical WDM network comprising optical channels, transponders and regenerators as network resources; wherein the network resources of the network resource group (NRG) share a common set of at least one of attributes, functionalities and inter-relationships, wherein inter-relationships are induced via either one of device limitations and non-orthogonalities of the network resources, wherein said device limitations and said non-orthogonalities of the network resources are induced directly through an application, wherein said optical WDM network comprises at least one reconfigurable optical add drop multiplexer (ROADM) as the at least one network element, said ROADM comprising a multiport-tunable filter to which tunable transponders are connected, and wherein the multi-port tunable filter comprises an exclusion relationship between the wavelength channels. 15. The computer program product according to claim 14 , wherein the program comprises at least one traffic engineering application program. 16. The computer program product according to claim 15 , wherein the traffic engineering application program is a resource-level path computation application program. 17. The computer program of claim 14 , wherein said device limitations and said non-orthogonalities of the network resources are further i